Capillary tubing and small rod connector

Abstract

 A connector for the joining together two fused silica or glass or other types of capillary tubes, in a chromatography system, without detrimental chromatographic effects created by distortion of the two joined capillary tubes, dead volumes or exposure to metal surfaces, orforthe butt joining of glass rods, has a pliable elongate surrounding member which sealingly engages a substantial length of each tube or rod from its end as well as supports each and thereby eliminates exposure to a housing or container surface.

Description

BACKGROUND OF THE INVENTION

[0001] This invention relates in general to tubing connectors and rod connectors and in particular to connectors for joining capillary tubes of the type used in gas chromatography equipment and other highly sensitive scientific measuring devices or for joining fiber optic rods.

[0002] Tubing couplings or tubing fittings in the past have taken variations of two basic forms of pressure fit, these being created by (1) a compressed ring or (2) a physical distortion of the end of the tubing. In the first instance, an o-ring or compression ring is wedged between mating surfaces of a coupling housing comprising the fitting. As a matter of course, two rather substantially constructed members, one acting as a housing and the other acting as a cap are drawn together. Each of these members can have a tapered surface or equivalent structure which bears down upon the ring deforming it and creating a pressure by the ring against the outside diameter of the tubing. This creates a pressure seal between the coupling members and the tubing. 'The deformable ring occupies a very short distance along the outer diameter of the tubing so that when it is deformed it concentrates specific pressure forces at a very narrow region of the tubing to create the seal. These forces very often permanently deform the wall of the tubing or at least distort it which effects the flow characteristics through the tubing at that point.

[0003] In the second instance of the distortion of the tubing, the end of the tubing is flared for mating with the outside taper of a tapered fitting and for being compressed thereagainst by a cap having a similar tapered surface and which threadably engages its mated coupling part. The flaring of this tubing and the insertion of the flared end into the mating tapered surface creates a protrusion into the tubing passageway which effects the flow characteristics through that section.

[0004] With large I.D. tubes the effects are minimal, but with capillary tubes these flow characteristic effects can be very significant. Moreover, with these types of couplings two compression members must be used and the fluid flowing through the coupling comes in contact with metal or other surfaces of the coupling housing.

[0005] Spontelli, USPN 4,076,286,provides a tubing fitting wherein a coupling body 12 has a square shoulder against which the end of the tubing seats to create a smooth continuation for the interior wall or passageway. An annular ring 50 has a convex outer surface 56 which seats against and is drawn up to a tapered shoulder 28 of the coupling body 12 when a coupling nut 34 is drawn upon the coupling body 12 by means of threads 30. This causes a crushing of the annular ring 52 to press and impinge on the outer wall of the tubing. As shown in Figure 2 of the patent, the wall of the tubing is typically distorted at the pressure points to create the positive seal needed.

[0006] Jennings, USPN 4,035,168, provides an inlet splitter for gas chromatograph. This structure includes a coupling structure for mating to a capillary tube 16. This structure includes an end ; closure 102 having a bore therethrough and an annular fitting into which an aperture nut 106 mounts. The aperture nut carries a central bore through which the capillary tube 16 passes. A sealing means 108 identical to sealing member 70 is caused to spread and thereby clamp down about the capillary tubing 16 as _I the aperture nut 106 is screwed into the end closure 102. This sealing member can be constructed of rubber, neopreme or silicon and causes a pinching at a narrow area of the capillary tubing wall to create a seal.

[0007] _Biermacher, USPN 4,116,837,provides an in line filter arrangement for a hard pressure liquid chromatography apparatus including couplings for mating two stainless steel capillary tubings. A SWAGELOK (trademark) fitting is used for coupling two one-sixteenth inch stainless steel capillary tubing 14. Tube 14 is provided with a fitting member or cap which is threadably engaged onto the external threads of a nipple 12. Each SWAGELOK fitting includes a sealing member which is distorted by the fitting member as it is tightened down on the nipple, causing it to press with great force at a specific point along the capillary tubing.

[0008] The construction and connection of capillary tubing is critical in many applications where used in sensitive measuring devices, and none is more critical than in gas chromatographic equipment. The physical structure of the tubing must be maintained constant throughout so that the dynamic characteristic of the fluid passing therethrough are not drastically effected from turbulation, back pressures, dead spaces or other factors. Often inert material, such as fused silica or glass, is used for capillary tubes on chromatograph equipment. The joining of two such silica or glass tubes, or when used, metal capillary tubing, without detectable detrimental chromatographic effects has been a problem.

[0009] The prior art often uses two sealing rings to connect the ends of the capillary columns or tubes within a housing device. This metal housing serves as a splice while introducing both dead volume and flow disruption. It is desirable to provide a capillary tubing coupling which minimizes dead volume, flow disruption and eliminates fluid exposure to coupling housing surfaces.

[0010] Moreover, each of these prior art coupling structures provides a coupling seal by pressure forces exerted between the mating surfaces of three elements: the tubing and the seal member on one hand, and the seal member and the housing on the other hand.

[0011] An object of the present invention is to provide a capillary butt connector for joining the ends of two capillary tubes in close proximity to one another and for minimizing dead volume between the joined ends thereby minimizing chromatographic analytical readout inaccuracies.

[0012] A second object of this invention is to provide such a butt connector where the tubes joined are surrounded by a sealing and support structure which is pliable and extends a sufficient distance from the joined ends.

[0013] A further object is to provide such a connector where the sealing member reacts to longitudinal forces on it to expand laterally thereby providing a coupling seal between the seal member and tubes alone and thereby eliminating the absorptive effects of fluid contact with the connector housing.

SUMMARY OF THE IMVENTION

[0014] The objects of this invention are realized in a coupling device for capillary tubing such as fused silica or glass capillary tubes or for coupling other types of fine rods such as butt joining fiber optic rods. A double ended tapered ferrule may be incorporated as the principal connection and sealing structure. This ferrule may be of pliable, plastic-like material and be cylindrically shaped with a tapered portion at each end. It may include a longitudinal hole or bore along its center line. The ferrule may be inserted within a cylindrical sleeve carrying internal end threads. An apertured nut, which allows a capillary tube to pass therethrough, is threadedly inserted into the sleeve with a beveled mating surface to bear against the ferrule.

[0015] Capillary tubes or fiber optic rods to be joined are inserted into the ferrule bore to abut one another at approximately the midpoint of the ferrule, the bore being of a size to permit a _i neat fit with the tubes and align the ends with one another. The ferrule is of sufficient length to extend a substantial distance from the end of each tube to provide mechanical support thereto, and is pliable enough to allow for slight irregularities in the tubes. Upon tightening down of the apertured nut, the ferrule is deformed longitudinally and expands laterally in its mid-area while being compressed laterally at each end, to bear against the sleeve and against the portions of each tube or rod inserted therein providing a seal between the abutted tubes or rods and the ferrule.

[0016] The bore within the ferrule can be customized to splice any of the available sizes of capillary tubing by enlarging the bore size to approximately the outside diameter of the tubing. The bore can also be enlarged on one side only to join tubes or rods of dissimilar outside diameters.

[0017] The sleeve may be constructed with an internal shoulder at one end against which one end of the ferrule abuts necessitating but one apertured nut for deforming the ferrule and compressing it into a sealing state. The sleeve may also be constructed as a cylinder, open at both ends with internal threads at both ends. Two apertured nuts are utilized with this latter configuration.

DESCRIPTION OF THE DRAWINGS

[0018] The advantages, structural features and operation of the invention can easily be understood from a reading of the following detailed description of the invention in conjunction with the attached drawings in which like numerals refer to like elements and in which:

Figure 1 shows a cross sectional view of the assembled capillary tubing connector with which two tubing sections have been connected;

Figure 2 shows the double ended ferrule of the embodiment of Figure 1;

Figure 3 shows the apertured nut for the connector of Figure 1;

Figure 4 shows an alternate sleeve for the tubing connector wherein a single apertured nut of Figure 3 and a single double ended ferrule of Figure 2 are used;

Figure 5 shows a further embodiment for the sleeve for the connector having a square shoulder at one interior end thereof;

Figure 6 shows a single tapered end ferrule for use with the sleeve embodiment of Figure _5.

DETAiLED DESCRIPTiON OF THE INVENTION

[0019] A connector device 10 is used for the connection of capillary tubes 11, or alternately the butt connection of fiber optic rods, to provide a sealed coupling of the tubes 11 without detectable detrimental chromatographic effects such as excessive dead volume or flow disruption caused by turbulence or other irregular flow characteristics created by another type of coupling. An elongate pliable cylindrical ferrule 13 has each end 15 thereof tapered as a trunkated cone or conical frustrum 15. This ferrule 13 has a central bore 17 extending along its longitudinal axis into which the two capillary tubes 11 are inserted in a neat fit to abut one another, the ferrule 13 acting as the sole splicing member for joining and sealing the ends of the two capillary tubes 11.

[0020] The ferrule 13 is positioned within a cylindrically shaped housing 19 in a smaller diameter bore midsection 21. Both ends of the cylindrical sleeve 19 are enlarged and threaded with threads 23 extending inwardly from the end faces of the cylindrical sleeve 19.

[0021] A cap or apertured nut 25 is threaded on its shaft 27 and has a hexagonally shaped head 29 and is fitted on each threaded end 23 of the sleeve 19. Each apertured nut 25 has a center bore 31 with a tapered or bevel portion 33, 35 at either end, the first tapered or bevel portion 33 being on the end of the shaft of the nut 25 which seats against the ferrule 13.

[0022] Cylindrical sleeve 19 can be made out of stainless steel, such as No. 304 stainless, and forms the housing for the connector 10. This sleeve 19 need not have a cylindrical outer wall, but can be hexagonal shaped or otherwise, and can be made of other metals or hard materials such as brass.

[0023] When chromatographic capillary tubing made of fused silica or laboratory glass material of a size in the range from 33mm to 1.58mm outside diameter is to be connected, the sleeve 19 has an outside diameter of about 1/4 inch and is about 1 inch long. The small bore section 21 of the sleeve 19 is about 3/8 inch long and has an inside diameter of about 1/8 inch. The larger diameter bore section at either end of the sleeve are each about 5/16 inch long with a threaded section 23 extending inwardly from each end about 1/4 inch.

[0024] Each apertured end cap 25 is also made of No. 304 stainless steel or other hard material and is about 1/2 inch long- The hexagonal head 29 is about 1/4 inch and the threaded portion that extends is about 5/16 inch long and cut to 10-32 American standard fine thread specifications. The center bore of each cap 25 has an inside diameter of about 1/16 inch and is about 3/16 inch long. The first tapered portion 33 tapers at an angle of about 25° and starts with an outside diameter of about .128 inches. The second tapered portion 35 has an outside diameter of about .218 inches and tapers at an angle of about 35°.

[0025] The double ended ferrule 13 is about 1/2 inch long and is made of E.I. duPont SP-1 Polymide Vespel (trademark). This material is a pliable, plastic-like material which is slightly deformable. The outside diameter of the ferrule 13 is approxi- mately 1/8 inch with each of the conical frustrum ends 15 tapering at an angle of about 15°. The center cylindrical section of the ferrule 13 is about 5/16 inch long with the truncated end diameter of the frustrum ends 15 being each about .075 inches.

[0026] The ferrule 13 can also be made of silicone rubber, Teflon^*, Kelrez^*, graphite or similar materials. ^*Trademarks of E.I. duPont

[0027] Tme ferrule 13, Figure 2, has a center bore of about

inches which can be enlarged when larger outside diameter capillary tubing is to be connected.

[0028] Extending beyond the threaded portion 27 of the apertured nut 25 is a slightly undersized shaft portion 37, Figure 3. This shaft portion 37 extends about 1/16 inch beyond of the threads 27 to provide the first beveled portion 33 of the nut 25 with a taper of about 1/8 inch long.

[0029] The connector 10 is easily assembled by first inserting one of the capillary tubes 11 into one end of the ferrule 13 with one of the apertured nuts 25 already inserted over the capillary tubing 11. The ferrule 13 is then inserted into the center portion of the sleeve 19 while that particular first one of the apertured nuts 25 is threaded onto an end of the sleeve 19. The second of the capillary tubes 11 is then inserted into the ferrule 13 bore 17 from the other end with its respective apertured nut 25 already asserted over the capillary tubing 11. Both apertured nuts 25 are then tightened down so that their first tapered portions 33 bear against the respective tapered end portions 15 of the ferrule 13 causing the ferrule 13 to be compressed longitudinally deforming it slightly and causing it to expand laterally against the inside walls of the sleeve 19 and the tubes 11 which creates a pressure along the entire length of the ferrule 13 between the ferrule 13 and the capillary tubing 11 thereby providing a seal and engagingly supporting the two capillary tubes 11 in a butted position. No portion of the connector sleeve 19 (housing) or nuts 25 forms an interface of the seal.

[0030] As an alternate to the embodiment of Figure 1, the housing comprising the sleeve 19 may be made in an alternate configuration necessitating but one apertured nut 25, Figure 4. This alternate configuration would have the cylindrical sleeve 39, Figure 4, with an identical inside diameter center bore portion 21 and a single threaded portion 23 at one end of the cylinder 39. The center bore portion 21, however, would conically taper inwardly at an angle of about 25° at the end opposite from the threaded section 23. This conical taper section 41 would be about 1/8 inch long and would end in an inside diameter 43 of about 1/16 inch which would then continue as a taper bore 45 flaring outwardly at an angle of about 35⁰. These sections 41, 43, 45 of the housing 39 would perform an identical function as the second one of the apertured nuts 25 and would eliminate the necessity for a second one of these nuts 25. With this alternate embodiment, Figure 4, as the single apertured nut 25 is drawn in on the threads 23 the ferrule 13 which has been inserted within the sleeve 39 is compressed longitudinally which causes it to expand laterally and press against the outside walls of both capillary tubes 11 which have been inserted from either end of the ferrule 13 bore 17.

[0031] The housing may be further modified to be sleeve 51, Figure 5, to have the interior end of the midsection bore 21 truncate in.a square shoulder 47 which extends perpendicular to the longitudinal axis of the sleeve 51. A center bore of about 1/16 inch 49 extends from the shoulder 47 the remaining distance through the sleeve 51. The double ended ferrule 13 of Figure 2 used in :he embodiment of Figure 1 and embodiment of Figure 4 would be modified for use with this latter sleeve housing 51. In this latter instance there would be but a single tapered end 53 on the ferrule 55 with the opposite end of this modified ferrule 55 being squared off 57. This ferrule 55 would be inserted through the threaded end 23 of this sleeve 51 before either of the pair of capillary tubes 11 would be inserted into the bore 17 of this ferrule 55. This ferrule 55 would be made of similar or identical materials to the ferrule 13.

[0032] The inside dimensions of the nut 25 apertures 31, 33, 35, sleeve 39 apertures 41, 43, 45 and sleeve 55 aperture 49 are such as to leave sufficient clearance for the tubes 11 whereby the ; ferrules 13 or 55 provide the entire supporting surface for the tubes 11 and a slight movement or bend of the tubes 11 is tolerated without a touching of the walls of the nut 25 or sleeves 39, 51.

[0033] Many changes in the above described coupling can be made without departing from the intent and scope of the invention. It is understood that the coupling 10 is similarly useful in joining fiber optic rods and other small cylindrical members and that these are understood to be included in any discussions of the tubes 11 hereinabove. It is intended, therefore, that all matter contained in the above description and shown in the accompanying drawings be interpreted as illustrative and not be taken in the limiting sense.

Claims

1. A connector to join two similar small cylindrical members, such as capillary tubes and fiber optic rods, with their ends abutted in close proximity to one another, comprising:

plastic means for surrounding the ends of said two small cylindrical members as well as a length of said small cylindrical members, said small cylindrical members being positionable to abut one another;

means for containing laterally said surrounding means; and and

means for engaging said containing means for drawing longitudinally against said surrounding means for expanding said surrounding means in a lateral direction into sealing engagement with said two small cylindrical members.

2. The connector of Claim 1 wherein said surrounding means is elongate.

3. The connector of Claim 2 wherein said elongate plastic means includes a plastic cylinder having a bore along its longi- tudinal axis, said bore being sized to neatly receive said small cylindrical members, said cylinder having at least one end being a conical frustrum.

4. The connector of Claim 3 wherein said plastic cylinder has both ends shaped as conical frustrums.

5. The connector of Claims 3 or 4 wherein said engaging, drawing against and expanding means includes a conical beveled surface meetable with a said conical frustrum taper.

6. The connector of Claim 3 wherein said engaging, drawing against and expanding means includes an apertured nut engaging said containing means, said nut including a conical beveled surface with its taper meeting said conical frustrum taper.

7. The connector of Claim 4 wherein said engaging, drawing against and expanding means includes a first and second apertured nuts engaging said containing means, said first and second nuts each having a threaded shaft portion having a longitudinal aperture therethrough.

8. The connector of Claim 7 wherein said containing means is a cylindrical sleeve having an internally threaded portion at either end, said first and second apertured nuts each threadedly engaging an end of said sleeve.

; 9. The connector of Claim 3 wherein said plastic cylinder is of polymide vespel-type material.

10. The connector of Claim 4 wherein said containing means ; is a cylindrical sleeve having a uniform inside diameter open at one end and carrying internal threads at said open end, its inside diameter tapering inwardly in a conical section at the other end, said conical section being truncated whereof a flared bore extends from the small end of said conical section to that end of said sleeve.

11. The connector of Claim 3 wherein said plastic cylinder is of polymide vespel-type material, said cylinder ending in a flat surface at the other end from said conical frustrums.

12. The connector of Claim 11 wherein said containing means includes a cylindrical sleeve having a uniform inside diameter open at one end and carrying internal threads at said open end, its inside diameter ending at a shoulder at the other end with a centrally positioned smaller bore extending beyond said shoulder to that end of said sleeve.

13. The connector of Claim 12 wherein said shoulder annularly protrudes about said inside diameter perpendicularly to the longitudinal axis of said sleeve.

14. The connector of Claim 5 wherein said frustrum taper is about 15° and said beveled surface taper is about 25°.

Drawing